MED23 pathogenic variant: genomic-phenotypic analysis.

Q3 Medicine Journal of Medicine and Life Pub Date : 2024-05-01 DOI:10.25122/jml-2024-0065
Ahmed Bamaga, Osama Muthaffar, Anas Alyazidi, Sarah Bahowarth, Mohammed Shawli, Fahad Alotibi, Matar Alsehemi, Mohammad Almohammal, Adel Alawwadh, Njood Alghamdi
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Abstract

The mediator complex subunit 23 (MED23) gene encodes a protein that acts as a tail module mediator complex, a multi-subunit co-activator involved in several cellular activities. MED23 has been shown to have substantial roles in myogenesis and other molecular mechanisms. The functions of MED23 in the neurological system remain unclear and the clinical phenotype is not thoroughly described. Whole exome sequencing was used to identify a novel mutation in the MED23 gene. DNA capture probes using next-generation sequencing-based copy number variation analysis with Illumina array were performed. The clinical, demographic, neuroimaging, and electrophysiological data of the patients were collected, and similarly, the data of all reported cases in the literature were extracted to compare findings. Screening a total of 9,662 articles, we identified 22 main regulatory processes for the MED23 gene, including suppressive activity for carcinogenic processes. MED23 is also involved in the brain's neurogenesis and functions. The identified cases mainly presented with intellectual disability (87.5%) and developmental delay (50%). Seizures were present in only 18.75% of the patients. Slow backgrounds and spike and sharp-wave complexes were reported on the electroencephalogram (EEG) of a few patients and delayed myelination, thin corpus callosum, and pontine hypoplasia on magnetic resonance imaging (MRI). The MED23 gene regulates several processes in which its understanding promotes considerable therapeutic potential for patients. It is crucial to consider genetic and laboratory testing, particularly when encountering potential carriers. Intellectual disability and developmental delay are the most notable clinical signs with heterogeneous features on EEG and MRI.

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MED23 致病变体:基因组表型分析。
介导复合体亚基 23(MED23)基因编码一种作为介导复合体尾模块的蛋白质,介导复合体是一种参与多种细胞活动的多亚基共激活因子。MED23 已被证明在肌肉生成和其他分子机制中发挥重要作用。MED23 在神经系统中的功能尚不清楚,临床表型也未得到详尽描述。全外显子组测序用于鉴定 MED23 基因的新型突变。利用基于下一代测序的拷贝数变异分析,使用Illumina阵列进行了DNA捕获探针分析。收集了患者的临床、人口统计学、神经影像学和电生理学数据,并同样提取了文献中所有报道病例的数据,以比较研究结果。通过对9662篇文章的筛选,我们确定了MED23基因的22个主要调控过程,包括对致癌过程的抑制作用。MED23 还参与大脑的神经发生和功能。已发现的病例主要表现为智力障碍(87.5%)和发育迟缓(50%)。只有 18.75% 的患者有癫痫发作。少数患者的脑电图(EEG)显示有缓慢背景、尖波和锐波复合,磁共振成像(MRI)显示有髓鞘化延迟、胼胝体变薄和桥脑发育不良。MED23 基因调节多个过程,了解该基因可为患者带来巨大的治疗潜力。考虑进行基因和实验室检测至关重要,尤其是在遇到潜在携带者时。智力障碍和发育迟缓是最显著的临床表现,脑电图和核磁共振成像显示出不同的特征。
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来源期刊
Journal of Medicine and Life
Journal of Medicine and Life Medicine-Medicine (all)
CiteScore
1.90
自引率
0.00%
发文量
202
期刊介绍: The Journal of Medicine and Life publishes peer-reviewed articles from various fields of medicine and life sciences, including original research, systematic reviews, special reports, case presentations, major medical breakthroughs and letters to the editor. The Journal focuses on current matters that lie at the intersection of biomedical science and clinical practice and strives to present this information to inform health care delivery and improve patient outcomes. Papers addressing topics such as neuroprotection, neurorehabilitation, neuroplasticity, and neuroregeneration are particularly encouraged, as part of the Journal''s continuous interest in neuroscience research. The Editorial Board of the Journal of Medicine and Life is open to consider manuscripts from all levels of research and areas of biological sciences, including fundamental, experimental or clinical research and matters of public health. As part of our pledge to promote an educational and community-building environment, our issues feature sections designated to informing our readers regarding exciting international congresses, teaching courses and relevant institutional-level events.
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